Glucose measuring device integrated into a holster for a personal area network device
A glucose meter module integrated into a holster device that can securely accommodate another device such as a portable server device or an insulin pump is described. The glucose measuring module and the health device communicate with each other by a short range wireless modality. In the case in which the accommodated device is a server, such as personal digital assistant or cell phone, the device stores data in a memory, displays data on a visual display, and can wirelessly transmit such data to other devices within a personal area network. In the case where the accommodated device is a cell phone, the phone can further transmit data to remote sites. In the case where the accommodated device is an insulin pump, wirelessly received data are stored in a memory, are available for visual display on the insulin pump, and can be incorporated into the electronic processes that regulate the performance of the pump.
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This is a divisional application of U.S. patent application Ser. No. 10/891,327 filed Jul. 14, 2004, now U.S. Pat. No. 7,722,536 issued May 25, 2010, which claims priority to U.S. Provisional Application No. 60/487,808 filed Jul. 15, 2003, the disclosures of each of which are incorporated herein by reference in their entirety for all purposes.
FIELD OF THE INVENTIONThe present invention relates to glucose monitoring devices. More particularly, the present invention relates to a glucose sensor module integrated into a holster that can accommodate another device, and further, to a method by which the glucose sensor module and the accommodated device wirelessly communicate with each other.
BACKGROUNDThe number of diagnosed cases of diabetes continues to increase in the U.S. and throughout the world, creating enormous economic and public health consequences. One area in which recently developed technologies have been able to improve the standard of care has been in the maintenance of tight control over the blood glucose levels. It is well known that if a diabetic patient's blood glucose values are maintained within the normal range of from about 80 milligrams per deciliter (mg/dL) to about 120 mg/dL, the physiologically damaging consequences of unchecked diabetes can be minimized.
Recent technological and commercial development in the two areas of glucose monitoring and of insulin administration have each contributed significantly to improving the ability of diabetic people to maintain better control over their blood glucose level, and thereby enhance their quality of life.
With better blood glucose information, diabetic patients can better exercise tight control of their blood glucose level through a variety of means, including diet, exercise, and medication. A common type of glucose measuring device is represented by hand-held electronic meters which receive blood samples via enzyme-based “test strips”. In using these systems, the patient lances a finger or alternate body site to obtain a blood sample, the sample is applied to the strip, the strip is inserted into a port in the meter housing where it engages the meter's internal electronics, and the electronics convert a current generated by the enzymatic reaction in the test strip to a blood glucose value. The glucose value is then typically displayed on the meter's liquid crystal display (LCD), which is generally relatively large in size in order to accommodate the eyesight capability of older adults and diabetic people, who often have deteriorating vision.
Some diabetic patients require insulin administration in order to maintain tight control of their glucose level. Insulin administration to these insulin-dependent patients has traditionally been by self-injection, but a more recently available technology is represented by insulin pumps. These pump devices offer significant therapeutic value over self injection, as the pumps deliver insulin in a more physiological manner, with measured doses of insulin being infused slowly, over an extended period of time. Further, the rate at which insulin is delivered can be programmed to follow standard or individually-modified protocols, to give the user even better glucose control over the course of a day. Insulin pumps have commercially evolved to become small in size, which offers easier portability and unobtrusiveness, and with electronic advances, they have evolved to become more fully-featured, and thus capable of enhanced and individualized performance. These various advantages in terms of health care quality and user convenience have supported the growth of the insulin pump market.
It has been recognized that combining the newer technologies of insulin administration with the newer technologies of glucose measurement could significantly improve user convenience, resulting in a greater ability to comply with frequent testing, and greater ability to effect individually appropriate schedules of insulin administration.
Such an integrated combination of a glucose measuring device and insulin pump is shown in U.S. Pat. No. 5,665,065, which teaches the inclusion of a mechanism for measuring blood glucose within the housing of an insulin pump. While the advantages of such a glucose measuring/insulin pump combinations has been known for many years, in fact, no such device has become commercially available. Various practical and market-based factors may contribute to the absence of a combination device in the market. Insulin pumps, though expensive, have become well established and stabilized in the market; and pump users tend to remain with their initial choice. Glucose meters, in contrast, are presently evolving more quickly and are inexpensive for users; indeed they are often provided to users by manufacturers without charge, as a loss leader in an overall business strategy. At least in part as a consequence of the low price, glucose meter users have lower brand loyalty, and will switch among brands. As another consequence, there is intense manufacturing cost pressure on glucose meters, which, in turn, encourages efficient product design by the meter manufacturers. From the perspective of a pump manufacturer in designing such a physically integrated combination device, the manufacturer would need to commit to a particular blood glucose measuring technology in the face of the concern that such technology could become less competitive or even obsolete during the normal life of the pump product.
It is known that hand-held glucose meters can advantageously be manufactured to include short range wireless communication capability, through which data from the glucose sensor can be transmitted to another health device, such as a computer, cell phone, or a personal digital assistant (PDA); such wireless communication between two portable devices is shown in the PCT publication WO03005891A1. This wireless data transfer relieves the glucose sensor user of the need to record such data by hand, and allows for accumulation of data points within a larger database for longer term health monitoring and intervention. In spite of the benefits of wireless communication, the inconvenience of handling separate devices to achieve the patient's singular goal of maintaining glucose control remains unsolved by wireless communication alone.
Devices that provide for secure personal portability of various communication and health-related electronic devices, and ease of use while being carried are also well known. Holsters and cases for electronic devices that attach to belts or other articles of clothing are never far from where mobile telephones are being sold, and are described in U.S. Pat. Nos. 5,664,292 and 5,833,100, and 6,081,695. Similarly, U.S. Pat. No. 5,472,317 describes an apparatus that provides for a belt-clip mounting for a medication infusion pump.
In view of these various problematic factors associated with the actual physical integration of a glucose measuring device with an insulin pump, it would be desirable to provide an insulin pump user the benefits and performance of functionally combined glucose measuring device and insulin pump. Such a combined device would desirably be in a portable configuration that, in fact, maintains physical distinctness of the devices, gets past the market-based barriers that accompany physical integration, and yet offers a combination which for all practical purposes is used as a single integrated device. It would be further desirable for this functionally integrated device to be fully enabled to interact with other devices within a personal area network.
SUMMARY OF THE INVENTIONIn view of the foregoing, in accordance with one embodiment of the present invention, there is provided a glucose monitoring device housing, comprising a holster unit, a glucose sensing module integrally disposed on the holster unit, where the holster unit is configured to substantially receive a server device, the server device configured to wirelessly communicate with the glucose sensing module.
The server device may include a blood glucose monitoring device. Alternatively, the server device may include one or more of an insulin pump, a personal digital assistant, a mobile telephone, and a portable gaming unit.
The server device may be configured to receive one or more data from the glucose sensing module, the one or more data including one or more data related to a detected blood glucose level.
The glucose sensing module may include a test strip port configured to receive a test strip.
The glucose sensing module may be shaped substantially elongate.
In one embodiment, the glucose sensing module may be configured to transmit data to the server device when the server device is substantially positioned within the holster unit.
The holster unit may include in one embodiment a belt clip portion, and a device clasping portion mechanically coupled to the belt clip portion.
The belt clip portion may be mechanically coupled to the device clasping portion by a spring biased connector unit.
Further, the glucose sensing module may be integrally disposed on one of the belt clip portion and the device clasping portion.
The glucose sensing module may include a test strip port configured to receive a test strip.
The device clasping portion of the holster unit may be configured to receive the server device such that the server device is in physical contact with the device clasping portion. Moreover, the server device may be securely positioned substantially within the device clasping portion of the holster unit.
Additionally, in one embodiment, each of the glucose sensing module and the server device may include a communication port for data communication.
Indeed, the glucose sending module communication port and the server device communication port each may include one of an infrared port, a Bluetooth enabled communication port, and a Wi-Fi enabled communication port.
The server device may include in one embodiment one or more of an output unit, and an input unit, where the output unit may include one or more of a display unit and an audio output unit.
The display unit in this case may include one of a liquid crystal display (LCD) unit, a plasma display unit, and a touch-sensitive display unit, and further, wherein the audio output unit includes an output speaker.
Also, the input unit may include one or more of an input button, and a touch-sensitive input unit integrated with the output unit.
Additionally, the output unit may be configured to output one or more of an image data, a video data, and an audio signal, in response to a predetermined event.
The predetermined event in one embodiment may include one or more of an input command generated by the input unit and a detection of a glucose sensing module signal.
A method of providing a glucose monitoring device housing in accordance with another embodiment of the present invention includes the steps of providing a holster unit, integrally disposing a glucose sensing module on the holster unit, configuring the holster unit to substantially receive a server device, and configuring the server device to wirelessly communicate with the glucose sensing module.
In a further embodiment, the server device may include one or more of a blood glucose monitoring device, an insulin pump, a personal digital assistant, a mobile telephone, and a portable gaming unit.
The method may further include the step of configuring the server device to receive one or more data from the glucose sensing module, the one or more data including one or more data related to a detected blood glucose level.
Also, the method may additionally include the step of providing a test strip port on the glucose sensing module, the test strip port configured to receive a test strip.
Indeed, the method may also include the step of configuring the glucose sensing module to transmit data to the server device when the server device is substantially positioned within the holster unit.
A data management system for managing health related data in accordance with still another embodiment of the present invention includes a personal area network, a client device configured for data communication in the personal area network, and a server device configured to communicate with the client device in the personal area network, where the client device is configured to transmit one or more health related data to the server device over the personal area network, and the server device is configured to generate one or more health management signals based on the received one or more health related data.
The client device may include a client device wireless communication port for data communication, and the server device includes a server device wireless communication port for data communication.
Further, each of the client device wireless communication port and the server device wireless communication port may include one of an infrared port, a Bluetooth enabled port, and a Wi-Fi communication port.
Moreover, the client device may include a blood glucose meter, and further, where the health related data includes a blood glucose level data.
The server device may include a blood glucose monitoring device configured to generate the one or more health management signals based on the blood glucose level data received from the blood glucose meter, where the health management signals includes one or more of an audio alert signal, a vibration alert signal, and a graphical display signal.
The blood glucose monitoring device may in one embodiment be configured to generate an alert signal for output when the received blood glucose level data is determined to be beyond a predetermined range.
Also, the predetermined range may substantially establish an impending hyperglycemic state and an impending hypoglycemic state.
In the manner described above, in accordance with one embodiment of the present invention, there is provided a glucose monitoring and response system that includes a glucose meter module, operating within a personal area network as a client device, integrated into a holster apparatus typically clipped or loop-attached to a belt or other article of clothing worn by a diabetic person, the holster being configured so as to be able to securely accommodate another health device such as a portable server device or an insulin pump. Communication between the glucose measuring module and the responding health device may be performed by a wireless modality, for example using infrared (IR), Bluetooth, or Wi-Fi (801.11g, 801.11b, or 801.11a) protocols.
In one embodiment, the accommodated device may include a server, such as a personal digital assistant or cell phone, where the accommodated device may be configured to store data in a memory, display data on a visual display, and may wirelessly transmit such data to other devices within a personal area network (PAN), as well as send data to remote sites via the global system for mobile communications (GSM). In another embodiment where the health device includes an insulin pump, the wirelessly received data may be stored in a memory, and may be available for visual display on the insulin pump, as well as incorporating into the selection of appropriate protocols that regulate the performance of the pump.
The glucose measuring module in one embodiment of the present invention may include glucose measuring circuitry for enzymatic electrochemical detection of glucose in a blood sample. The module, by including a holster accommodation for a device with which it wirelessly communicates, may be configured to establish a functional system integration in spite of physical distinctness of the two major system components. Cost and size of the holster-integrated glucose meter may be minimized by reliance on the fully meter-functional display and controls present on the holster-accommodated device, and the absence of the redundant visual display and redundant control buttons on the glucose meter.
More particularly, in accordance with one embodiment of the present invention, there is provided a glucose sensing and insulin delivery system which includes a glucose sensor module, an insulin pump including a visual display, a holster apparatus into which the glucose sensor module is integrated and which holster is configured to hold the insulin pump, and a wireless data communication system for transmitting data between the glucose sensor module and the insulin pump.
In another embodiment, the holster apparatus may include a belt-clip portion and a device clasping portion. Moreover, the glucose sensor module may be integrated into the device-clasping portion of the holster apparatus. Alternatively, the glucose sensor module may be integrated into the belt-clip portion of the holster apparatus.
The wireless data communication system may include an infrared transceiver in the glucose sensor module and an infrared transceiver in said insulin pump. Additionally, the wireless data communication system may include a Bluetooth-enabled transceiver in the glucose sensor module and a Bluetooth-enabled transceiver in the insulin pump.
Furthermore, the glucose sensing and insulin delivery system may include a single visual display. Alternatively, the glucose sensor module may not include a visual display.
In addition, the insulin pump may include a housing, where the housing includes control buttons mounted in the housing.
Also, control unit may be provided for controlling the operation of the glucose module, where the control unit may include control buttons mounted on the insulin pump.
In accordance with another embodiment of the present invention, there is provided a glucose sensing system comprising a glucose sensor module enabled to wirelessly communicate within a personal area network, a second personal area network communication-enabled device including a visual display, and a holster apparatus into which the glucose sensor module is integrated and which holster is configured to hold the second personal area network device.
The second personal area network communication-enabled device may include an insulin pump. Alternatively, the second personal area network communication-enabled device may include a cell phone.
These and other features and advantages of the present invention will be understood upon consideration of the following detailed description of the invention and the accompanying drawings.
The invention will now be described by reference to the figures, wherein like reference numerals and names indicate corresponding structure throughout the several views.
At the base of the glucose sensing module 102 is located a test strip port 105, wherein test strips are inserted after having been contacted with a blood sample. Alternatively, glucose sensing module 102 can be configured to accept test strips before they have been contacted with a blood sample. Other configurations for the placement of the glucose sensing module within the clasping portion of the holster are possible that would meet the basic requirement that the module, and more particularly the test strip port 105 within the module, be readily accessible to the user. The two holster mechanical components, the belt-clip portion 101 and the device-clasping portion 103, may be joined by a spring-biased connector (not shown) which causes the belt-clip to press toward the device-clasping portion, in order to grip a belt or article of clothing worn by a user, and thus to secure the apparatus.
Referring back to
Moreover, other forms of the belt-clip portion of the holster may be compatible with the various embodiments shown herein and within the scope of the above-described and illustrated embodiments of the present invention. The clip, for example, may be made of bent metal or molded plastic, the clasping pressure of the spring, as described above, in these alternative embodiments being instead provided by the spring bias inherent in the bent metal or molded plastic. Metal clips may also be covered with fabric and/or padding material. Alternatively, the belt-clip portion could also be fabricated as a loop, constructed from various materials (fabric, synthetics, leather), into which the belt of the user is threaded, and the loop could also make use of Velcro®-type hook and loop connections.
Exploded rightward for visibility is the server device 411, or insulin pump in this depiction, that may be held by the holster apparatus. On the front aspect of the housing of this device, the LCD 409 and interface control keys 410 can be seen. The front aspect housing of the device 411 is for purpose of illustration rendered as partially transparent so as to make visible the transceiver port 302 of the device, located on a side wall of the housing, facing outward toward the clasping arm 104, and more specifically, toward transceiver 301 of the glucose monitor 102. It can thus be seen that when the insulin pump or portable server device 411 is contained within the holster, the two transceiver ports 301 (of the client device) and 302 (of the server device), are directly aligned together, a configuration that assures successful transmission of data by IR.
The server device in the illustrated case includes an insulin pump with an LCD display 409 and control interface keys 410. The carrying case 408 is a component of holster devices and which allows for the secure holding of a device, the device itself being unencumbered by specific attachment elements. A carrying case can be combined with the herein described holster apparatus, whether it is of the variety depicted in
Test strip/sensor unit 501 is an electrochemical analyte test strip, such as the blood glucose test strip described in U.S. patent application Ser. No. 09/434,026 filed Nov. 4, 1999 entitled “Small Volume In Vitro Analyte Sensor and Methods”, now U.S. Pat. No. 6,616,819, the disclosure of which is incorporated herein by reference for all purposes. The test strip 501 is mechanically received in a test strip port 105, 204, 404 (of the embodiments shown in
Referring back to
The server device 504 may also communicate with a data processing terminal 505, such as for sending glucose data from devices 502 and 504, and/or receiving instructions or an insulin pump protocol from a health care provider via the data processing terminal 505. Examples of such communication include a PDA 504 synchronizing data with a personal computer (PC) 505, a mobile phone 504 communicating over a cellular network with a computer 505 at the other end, or an insulin pump 504 communicating with a computer system 505 at a physician's office.
As noted in the discussion above of the client device in conjunction with
Additionally, control buttons that are found on typical glucose meters can be eliminated, saving additional size and cost, since the user can rely on the user in out features of the server device instead. It is expected that the simplified, wireless enabled meters integrated into a device holster, as described herein, may ultimately become inexpensive enough to make them disposable after a specified number of uses, permitting the producer to routinely upgrade as appropriate.
Further, the system permits the user to include security coding at any time the meter unit accesses a display device, so that the user's data are secure, such that, when the “client” meter of one embodiment of the present invention is used, the system requires the user to enter an identity code in order to verify that the person handling the meter is indeed an authorized user. In an alternate embodiment, it is possible for the system to permit more than one user if the meter owner so desires.
While the glucose sensing module does not include a large or expensive display, it may nevertheless be advantageous to include some ability to advise the user of a glucose level which is determined when the module is used as a “stand-alone” unit. For example, the module could include a very low cost, small three digit LCD display. Alternatively, the module could include light emitting diode (LED) indicator lights (for example, red for out of desired range, green for within desired range). Other possibilities include a red LED for below range, a green LED for within range, and a yellow LED for above range, or a column of LEDs or an electroluminescent strip (similar to those used on common batteries to indicate battery life) to indicate approximate or relative glucose levels.
Diabetics are well aware of the risks involved in driving when glucose levels are out of range and particularly when they are too low. Thus, for example, the navigation computer in the diabetic's vehicle 806 could become part of the personal area network and would download glucose data from the meter when the diabetic enters the vehicle 806. For the sake of safety, the car computer system could be programmed to require that the diabetic perform a glucose test before driving, and more specifically the car could be disabled until the diabetic performs a blood glucose test and the result is in an appropriate range. Other possible devices for communication with the client device 801 may include a television 807, a gaming device 809, and a refrigerator 810.
In this manner, in accordance with the embodiments of the present invention, there is provided a glucose monitoring system resulting from the functional combination of a holster-integrated glucose measuring device and a second device accommodated within the holster. The holster itself includes a belt-clip portion and a device-clasping portion; the glucose monitor can be integrated into either portion. Various embodiments provide for an ability for the belt-clip and device-clasping portions to swivel with respect to each other, and to detach from each other. In the embodiments where the belt-clip portion and clasping portion do not detach, the clasping portion provides for a quick attachment/detachment of the held server device.
Various other modifications and alterations in the structure and method of operation of this invention will be apparent to those skilled in the art without departing from the scope and spirit of the invention. Although the invention has been described in connection with specific preferred embodiments, it should be understood that the invention as claimed should not be unduly limited to such specific embodiments. It is intended that the following claims define the scope of the present invention and that structures and methods within the scope of these claims and their equivalents be covered thereby.
Claims
1. An integrated device, comprising:
- a housing having no user interface, the housing including a blood glucose meter and a first data communication unit; and
- a medication infusion device including a user interface unit and a second data communication unit, the user interface unit configured to output one or more data associated with a blood glucose level or medication infusion, the second data communication unit configured to communicate with the first data communication unit; wherein a portion of the housing is configured to contain the medication infusion device when the medication infusion device is detachably coupled to the housing; and further wherein the second data communication unit is configured to receive one or more signals associated with a blood sample analyzed by the blood glucose meter only when the medication infusion device is coupled to the housing.
2. The device of claim 1 wherein the first data communication unit is configured to transmit to the second data communication unit one or more signals associated with a blood sample analyzed by the blood glucose meter.
3. The device of claim 1 wherein the housing and the medication infusion device form a single portable integrated unit when the housing contains the medication infusion device.
4. The device of claim 1 wherein the first data communication unit and the second data communication unit are each configured for one or more of infrared communication, radio frequency (RF) communication, Wi-Fi communication, cellular communication, or wired communication.
5. The device of claim 1 wherein the housing portion includes a clasping portion for retaining the medication infusion device when coupled to the housing.
6. The device of claim 1 wherein the housing is displayless.
7. The device of claim 1 wherein calibration information is provided to the blood glucose meter using the user interface unit of the medication infusion device.
8. The device of claim 1 wherein the user interface unit of the medication infusion device is configured to control, at least in part, the operation of the blood glucose meter.
9. The device of claim 1 wherein the housing is configured to be secured to a belt or an article of clothing of a user.
10. An integrated device, comprising:
- a housing having no user interface, the housing including a blood glucose meter and a first data communication unit; and
- a medication infusion device including a user interface unit and a second data communication unit, the user interface unit configured to output one or more data associated with a blood glucose level or medication infusion, the second data communication unit configured to communicate with the first data communication unit; wherein a portion of the housing is configured to contain the medication infusion device when the medication infusion device is detachably coupled to the housing; and further wherein calibration information is provided to the blood glucose meter using the user interface unit of the medication infusion device.
11. The device of claim 10 wherein the first data communication unit is configured to transmit to the second data communication unit one or more signals associated with a blood sample analyzed by the blood glucose meter.
12. The device of claim 10 wherein the second data communication unit is configured receive one or more signals associated with a blood sample analyzed by the blood glucose meter only when the medication infusion device is coupled to the housing.
13. The device of claim 10 wherein the housing and the medication infusion device form a single portable integrated unit when the housing contains the medication infusion device.
14. The device of claim 10 wherein the first data communication unit and the second data communication unit are each configured for one or more of infrared communication, radio frequency (RF) communication, Wi-Fi communication, cellular communication, or wired communication.
15. The device of claim 10 wherein the housing portion includes a clasping portion for retaining the medication infusion device when coupled to the housing.
16. The device of claim 10 wherein the housing is displayless.
17. The device of claim 10 wherein the user interface unit of the medication infusion device is configured to control, at least in part, the operation of the blood glucose meter.
18. The device of claim 10 wherein the housing is configured to be secured to a belt or an article of clothing of a user.
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Type: Grant
Filed: Sep 26, 2008
Date of Patent: Oct 4, 2011
Patent Publication Number: 20090069744
Assignee: Abbott Diabetes Care Inc. (Alameda, CA)
Inventor: Timothy T. Goodnow (Pleasanton, CA)
Primary Examiner: Patricia Mallari
Assistant Examiner: Karen Toth
Attorney: Jackson & Co., LLP
Application Number: 12/238,986
International Classification: A61B 5/00 (20060101);